The START_TAG and END_TAG options are used to specify character sequences or regular expressions that mark the start and end of inline template directives. The default values for START_TAG and END_TAG are '[%' and '%]' respectively, giving us the familiar directive style:

[% example %]

Any Perl regex characters can be used and therefore should be escaped (or use the Perl quotemeta function) if they are intended to represent literal characters.

The OUTLINE_TAG option can be used to enable single-line "outline" directives.

my $template = Template->new({
OUTLINE_TAG => '%%',
});

This allows you to use both inline and outline tags like so:

%% IF user
Hello [% user.name %]
%% END

The OUTLINE_TAG string (or regex) must appear at the start of a line. The directive continues until the end of the line. The newline character at the end of the line is considered to be the invisible end-of-directive marker and is removed.

Anything outside a directive tag is considered plain text and is generally passed through unaltered (but see the INTERPOLATE option). This includes all whitespace and newlines characters surrounding directive tags. Directives that don't generate any output will leave gaps in the output document.

Example:

Foo
[% a = 10 %]
Bar

Output:

Foo
Bar

The PRE_CHOMP and POST_CHOMP options can help to clean up some of this extraneous whitespace. Both are disabled by default.

With PRE_CHOMP set to 1, the newline and whitespace preceding a directive at the start of a line will be deleted. This has the effect of concatenating a line that starts with a directive onto the end of the previous line.

With POST_CHOMP set to 1, any whitespace after a directive up to and including the newline will be deleted. This has the effect of joining a line that ends with a directive onto the start of the next line.

If PRE_CHOMP or POST_CHOMP is set to 2, all whitespace including any number of newline will be removed and replaced with a single space. This is useful for HTML, where (usually) a contiguous block of whitespace is rendered the same as a single space.

With PRE_CHOMP or POST_CHOMP set to 3, all adjacent whitespace (including newlines) will be removed entirely.

These values are defined as CHOMP_NONE, CHOMP_ONE, CHOMP_COLLAPSE and CHOMP_GREEDY constants in the Template::Constants module. CHOMP_ALL is also defined as an alias for CHOMP_ONE to provide backwards compatibility with earlier version of the Template Toolkit.

Additionally the chomp tag modifiers listed below may also be used for the PRE_CHOMP and POST_CHOMP configuration.

Note that a limitation in Perl's regex engine restricts the maximum length of an interpolated template to around 32 kilobytes or possibly less. Files that exceed this limit in size will typically cause Perl to dump core with a segmentation fault. If you routinely process templates of this size then you should disable INTERPOLATE or split the templates in several smaller files or blocks which can then be joined backed together via PROCESS or INCLUDE.

One side-effect of enabling ANYCASE is that you cannot use a variable of the same name as a reserved word, regardless of case. The reserved words are currently:

GET CALL SET DEFAULT INSERT INCLUDE PROCESS WRAPPER
IF UNLESS ELSE ELSIF FOR FOREACH WHILE SWITCH CASE
USE PLUGIN FILTER MACRO PERL RAWPERL BLOCK META
TRY THROW CATCH FINAL NEXT LAST BREAK RETURN STOP
CLEAR TO STEP AND OR NOT MOD DIV END

The only lower case reserved words that cannot be used for variables, regardless of the ANYCASE option, are the operators:

The INCLUDE_PATH is used to specify one or more directories in which template files are located. When a template is requested that isn't defined locally as a BLOCK, each of the INCLUDE_PATH directories is searched in turn to locate the template file. Multiple directories can be specified as a reference to a list or as a single string where each directory is delimited by ':'.

On Win32 systems, a little extra magic is invoked, ignoring delimiters that have ':' followed by a '/' or '\'. This avoids confusion when using directory names like 'C:\Blah Blah'.

When specified as a list, the INCLUDE_PATH path can contain elements which dynamically generate a list of INCLUDE_PATH directories. These generator elements can be specified as a reference to a subroutine or an object which implements a paths() method.

Each time a template is requested and the INCLUDE_PATH examined, the subroutine or object method will be called. A reference to a list of directories should be returned. Generator subroutines should report errors using die(). Generator objects should return undef and make an error available via its error() method.

On Win32 systems, the default delimiter is a little more intelligent, splitting paths only on ':' characters that aren't followed by a '/'. This means that the following should work as planned, splitting the INCLUDE_PATH into 2 separate directories, C:/foo and C:/bar.

The ABSOLUTE flag is used to indicate if templates specified with absolute filenames (e.g. '/foo/bar') should be processed. It is disabled by default and any attempt to load a template by such a name will cause a 'file' exception to be raised.

The RELATIVE flag is used to indicate if templates specified with filenames relative to the current directory (e.g. './foo/bar' or '../../some/where/else') should be loaded. It is also disabled by default, and will raise a 'file' error if such template names are encountered.

The DEFAULT option can be used to specify a default template which should be used whenever a specified template can't be found in the INCLUDE_PATH.

my $template = Template->new({
DEFAULT => 'notfound.html',
});

If a non-existent template is requested through the Template process() method, or by an INCLUDE, PROCESS or WRAPPER directive, then the DEFAULT template will instead be processed, if defined. Note that the DEFAULT template is not used when templates are specified with absolute or relative filenames, or as a reference to a input file handle or text string.

The BLOCKS option can be used to pre-define a default set of template blocks. These should be specified as a reference to a hash array mapping template names to template text, subroutines or Template::Document objects.

Be aware of the fact that Perl's hash array are unordered, so if you want to specify multiple views of which one or more are based on other views, then you should use a list reference to preserve the order of definition.

The AUTO_RESET option is set by default and causes the local BLOCKS cache for the Template::Context object to be reset on each call to the Template process() method. This ensures that any BLOCKs defined within a template will only persist until that template is finished processing. This prevents BLOCKs defined in one processing request from interfering with other independent requests subsequently processed by the same context object.

The BLOCKS item may be used to specify a default set of block definitions for the Template::Context object. Subsequent BLOCK definitions in templates will over-ride these but they will be reinstated on each reset if AUTO_RESET is enabled (default), or if the Template::Contextreset() method is called.

The template processor will raise a file exception if it detects direct or indirect recursion into a template. Setting this option to any true value will allow templates to include each other recursively.

The VARIABLES option (or PRE_DEFINE - they're equivalent) can be used to specify a hash array of template variables that should be used to pre-initialise the stash when it is created. These items are ignored if the STASH item is defined.

The CONSTANTS option can be used to specify a hash array of template variables that are compile-time constants. These variables are resolved once when the template is compiled, and thus don't require further resolution at runtime. This results in significantly faster processing of the compiled templates and can be used for variables that don't change from one request to the next.

The following options are used to specify any additional templates that should be processed before, after, around or instead of the template passed as the first argument to the Templateprocess() method. These options can be perform various useful tasks such as adding standard headers or footers to all pages, wrapping page output in other templates, pre-defining variables or performing initialisation or cleanup tasks, automatically generating page summary information, navigation elements, and so on.

The task of processing the template is delegated internally to the Template::Service module which, unsurprisingly, also has a process() method. Any templates defined by the PRE_PROCESS option are processed first and any output generated is added to the output buffer. Then the main template is processed, or if one or more PROCESS templates are defined then they are instead processed in turn. In this case, one of the PROCESS templates is responsible for processing the main template, by a directive such as:

[% PROCESS $template %]

The output of processing the main template or the PROCESS template(s) is then wrapped in any WRAPPER templates, if defined. WRAPPER templates don't need to worry about explicitly processing the template because it will have been done for them already. Instead WRAPPER templates access the content they are wrapping via the content variable.

wrapper before
[% content %]
wrapper after

This output generated from processing the main template, and/or any PROCESS or WRAPPER templates is added to the output buffer. Finally, any POST_PROCESS templates are processed and their output is also added to the output buffer which is then returned.

If the main template throws an exception during processing then any relevant template(s) defined via the ERROR option will be processed instead. If defined and successfully processed, the output from the error template will be added to the output buffer in place of the template that generated the error and processing will continue, applying any WRAPPER and POST_PROCESS templates. If no relevant ERROR option is defined, or if the error occurs in one of the PRE_PROCESS, WRAPPER or POST_PROCESS templates, then the process will terminate immediately and the error will be returned.

These values may be set to contain the name(s) of template files (relative to INCLUDE_PATH) which should be processed immediately before and/or after each template. These do not get added to templates processed into a document via directives such as INCLUDE, PROCESS, WRAPPER etc.

The Template::Document object representing the main template being processed is available within PRE_PROCESS and POST_PROCESS templates as the template variable. Metadata items defined via the META directive may be accessed accordingly.

The PROCESS option may be set to contain the name(s) of template files (relative to INCLUDE_PATH) which should be processed instead of the main template passed to the Templateprocess() method. This can be used to apply consistent wrappers around all templates, similar to the use of PRE_PROCESS and POST_PROCESS templates.

A reference to the original template is available in the template variable. Metadata items can be inspected and the template can be processed by specifying it as a variable reference (i.e. prefixed by $) to an INCLUDE, PROCESS or WRAPPER directive.

The WRAPPER option can be used to specify one or more templates which should be used to wrap around the output of the main page template. The main template is processed first (or any PROCESS template(s)) and the output generated is then passed as the content variable to the WRAPPER template(s) as they are processed.

You can specify more than one WRAPPER template by setting the value to be a reference to a list of templates. The WRAPPER templates will be processed in reverse order with the output of each being passed to the next (or previous, depending on how you look at it) as the 'content' variable. It sounds complicated, but the end result is that it just "Does The Right Thing" to make wrapper templates nest in the order you specify.

One side-effect of the "inside-out" processing of the WRAPPER configuration item (and also the WRAPPER directive) is that any variables set in the template being wrapped will be visible to the template doing the wrapping, but not the other way around.

You can use this to good effect in allowing page templates to set pre-defined values which are then used in the wrapper templates. For example, our main page template 'foo' might look like this:

It achieves the same effect as defining META items which are then accessed via the template variable (which you are still free to use within WRAPPER templates), but gives you more flexibility in the type and complexity of data that you can define.

The ERROR (or ERRORS if you prefer) configuration item can be used to name a single template or specify a hash array mapping exception types to templates which should be used for error handling. If an uncaught exception is raised from within a template then the appropriate error template will instead be processed.

If specified as a single value then that template will be processed for all uncaught exceptions.

my $template = Template->new({
ERROR => 'error.html'
});

If the ERROR item is a hash reference the keys are assumed to be exception types and the relevant template for a given exception will be selected. A default template may be provided for the general case. Note that ERROR can be pluralised to ERRORS if you find it more appropriate in this case.

In this example, any user exceptions thrown will cause the user/index.html template to be processed, dbi errors are handled by error/database and all others by the error/default template. Any PRE_PROCESS and/or POST_PROCESS templates will also be applied to these error templates.

Note that exception types are hierarchical and a foo handler will catch all foo.* errors (e.g. foo.bar, foo.bar.baz) if a more specific handler isn't defined. Be sure to quote any exception types that contain periods to prevent Perl concatenating them into a single string (i.e. user.passwd is parsed as 'user'.'passwd').

In this example, any template processed by the $template object, or other templates or code called from within, can raise a user.login exception and have the service redirect to the user/login.html template. Similarly, a user.passwd exception has a specific handling template, user/badpasswd.html, while all other user or user.* exceptions cause a redirection to the user/index.html page. All other exception types are handled by error/default.

This flag is used to indicate if PERL and/or RAWPERL blocks should be evaluated. It is disabled by default and any PERL or RAWPERL blocks encountered will raise exceptions of type 'perl' with the message 'EVAL_PERL not set'. Note however that any RAWPERL blocks should always contain valid Perl code, regardless of the EVAL_PERL flag. The parser will fail to compile templates that contain invalid Perl code in RAWPERL blocks and will throw a 'file' exception.

When using compiled templates (see "Caching and Compiling Options"), the EVAL_PERL has an affect when the template is compiled, and again when the templates is subsequently processed, possibly in a different context to the one that compiled it.

If the EVAL_PERL is set when a template is compiled, then all PERL and RAWPERL blocks will be included in the compiled template. If the EVAL_PERL option isn't set, then Perl code will be generated which always throws a 'perl' exception with the message 'EVAL_PERL not set' whenever the compiled template code is run.

Thus, you must have EVAL_PERL set if you want your compiled templates to include PERL and RAWPERL blocks.

At some point in the future, using a different invocation of the Template Toolkit, you may come to process such a pre-compiled template. Assuming the EVAL_PERL option was set at the time the template was compiled, then the output of any RAWPERL blocks will be included in the compiled template and will get executed when the template is processed. This will happen regardless of the runtime EVAL_PERL status.

Regular PERL blocks are a little more cautious, however. If the EVAL_PERL flag isn't set for the current context, that is, the one which is trying to process it, then it will throw the familiar 'perl' exception with the message, 'EVAL_PERL not set'.

Thus you can compile templates to include PERL blocks, but optionally disable them when you process them later. Note however that it is possible for a PERL block to contain a Perl "BEGIN { # some code }" block which will always get run regardless of the runtime EVAL_PERL status. Thus, if you set EVAL_PERL when compiling templates, it is assumed that you trust the templates to Do The Right Thing. Otherwise you must accept the fact that there's no bulletproof way to prevent any included code from trampling around in the living room of the runtime environment, making a real nuisance of itself if it really wants to. If you don't like the idea of such uninvited guests causing a bother, then you can accept the default and keep EVAL_PERL disabled.

Default output location or handler. This may be specified as one of: a file name (relative to OUTPUT_PATH, if defined, or the current working directory if not specified absolutely); a file handle (e.g. GLOB or IO::Handle) opened for writing; a reference to a text string to which the output is appended (the string isn't cleared); a reference to a subroutine which is called, passing the output text as an argument; as a reference to an array, onto which the content will be push()ed; or as a reference to any object that supports the print() method. This latter option includes the Apache::Request object which is passed as the argument to Apache/mod_perl handlers.

The OUTPUT_PATH allows a directory to be specified into which output files should be written. An output file can be specified by the OUTPUT option, or passed by name as the third parameter to the Templateprocess() method.

By default the Template Toolkit will silently ignore the use of undefined variables (a bad design decision that I regret).

When the STRICT option is set, the use of any undefined variables or values will cause an exception to be throw. The exception will have a type of var.undefined and a message of the form "undefined variable: xxx".

The DEBUG option can be used to enable debugging within the various different modules that comprise the Template Toolkit. The Template::Constants module defines a set of DEBUG_XXXX constants which can be combined using the logical OR operator, '|'.

This option causes the Template Toolkit to generate comments indicating the source file, line and original text of each directive in the template. These comments are embedded in the template output using the format defined in the DEBUG_FORMAT configuration item, or a simple default format if unspecified.

The DEBUG_FORMAT option can be used to specify a format string for the debugging messages generated via the DEBUG_DIRS option described above. Any occurrences of $file, $line or $text will be replaced with the current file name, line or directive text, respectively. Notice how the format is single quoted to prevent Perl from interpolating those tokens as variables.

The Template::Provider module caches compiled templates to avoid the need to re-parse template files or blocks each time they are used. The CACHE_SIZE option is used to limit the number of compiled templates that the module should cache.

By default, the CACHE_SIZE is undefined and all compiled templates are cached. When set to any positive value, the cache will be limited to storing no more than that number of compiled templates. When a new template is loaded and compiled and the cache is full (i.e. the number of entries == CACHE_SIZE), the least recently used compiled template is discarded to make room for the new one.

As well as caching templates as they are found, the Template::Provider also implements negative caching to keep track of templates that are not found. This allows the provider to quickly decline a request for a template that it has previously failed to locate, saving the effort of going to look for it again. This is useful when an INCLUDE_PATH includes multiple providers, ensuring that the request is passed down through the providers as quickly as possible.

The default value is 1 (second). You'll probably want to set this to a higher value if you're running the Template Toolkit inside a persistent web server application (e.g. mod_perl). For example, set it to 60 and the provider will only look for changes to templates once a minute at most. However, during development (or any time you're making frequent changes to templates) you'll probably want to keep it set to a low value so that you don't have to wait for the provider to notice that your templates have changed.

From version 2 onwards, the Template Toolkit has the ability to compile templates to Perl code and save them to disk for subsequent use (i.e. cache persistence). The COMPILE_EXT option may be provided to specify a filename extension for compiled template files. It is undefined by default and no attempt will be made to read or write any compiled template files.

my $template = Template->new({
COMPILE_EXT => '.ttc',
});

If COMPILE_EXT is defined (and COMPILE_DIR isn't, see below) then compiled template files with the COMPILE_EXT extension will be written to the same directory from which the source template files were loaded.

Compiling and subsequent reuse of templates happens automatically whenever the COMPILE_EXT or COMPILE_DIR options are set. The Template Toolkit will automatically reload and reuse compiled files when it finds them on disk. If the corresponding source file has been modified since the compiled version as written, then it will load and re-compile the source and write a new compiled version to disk.

This form of cache persistence offers significant benefits in terms of time and resources required to reload templates. Compiled templates can be reloaded by a simple call to Perl's require(), leaving Perl to handle all the parsing and compilation. This is a Good Thing.

Files loaded from different INCLUDE_PATH directories will have their compiled forms save in the relevant COMPILE_DIR directory.

On Win32 platforms a filename may by prefixed by a drive letter and colon. e.g.

C:/My Templates/header

The colon will be silently stripped from the filename when it is added to the COMPILE_DIR value(s) to prevent illegal filename being generated. Any colon in COMPILE_DIR elements will be left intact. For example:

The PLUGINS options can be used to provide a reference to a hash array that maps plugin names to Perl module names. A number of standard plugins are defined (e.g. table, format, cgi, etc.) which map to their corresponding Template::Plugin::* counterparts. These can be redefined by values in the PLUGINS hash.

The recommended convention is to specify these plugin names in lower case. The Template Toolkit first looks for an exact case-sensitive match and then tries the lower case conversion of the name specified.

[% USE Foo %] # look for 'Foo' then 'foo'

If you define all your PLUGINS with lower case names then they will be located regardless of how the user specifies the name in the USE directive. If, on the other hand, you define your PLUGINS with upper or mixed case names then the name specified in the USE directive must match the case exactly.

The USE directive is used to create plugin objects and does so by calling the plugin() method on the current Template::Context object. If the plugin name is defined in the PLUGINS hash then the corresponding Perl module is loaded via require(). The context then calls the load() class method which should return the class name (default and general case) or a prototype object against which the new() method can be called to instantiate individual plugin objects.

If the plugin name is not defined in the PLUGINS hash then the PLUGIN_BASE and/or LOAD_PERL options come into effect.

If a plugin is not defined in the PLUGINS hash then the PLUGIN_BASE is used to attempt to construct a correct Perl module name which can be successfully loaded.

The PLUGIN_BASE can be specified as a reference to an array of module namespaces, or as a single value which is automatically converted to a list. The default PLUGIN_BASE value (Template::Plugin) is then added to the end of this list.

If you don't want the default Template::Plugin namespace added to the end of the PLUGIN_BASE, then set the $Template::Plugins::PLUGIN_BASE variable to a false value before calling the new()Template#new() constructor method. This is shown in the example below where the Foo plugin is located as My::Plugin::Foo or Your::Plugin::Foo but not as Template::Plugin::Foo.

If a plugin cannot be loaded using the PLUGINS or PLUGIN_BASE approaches then the provider can make a final attempt to load the module without prepending any prefix to the module path. This allows regular Perl modules (i.e. those that don't reside in the Template::Plugin or some other such namespace) to be loaded and used as plugins.

By default, the LOAD_PERL option is set to 0 and no attempt will be made to load any Perl modules that aren't named explicitly in the PLUGINS hash or reside in a package as named by one of the PLUGIN_BASE components.

Plugins loaded using the PLUGINS or PLUGIN_BASE receive a reference to the current context object as the first argument to the new() constructor. Modules loaded using LOAD_PERL are assumed to not conform to the plugin interface. They must provide a new() class method for instantiating objects but it will not receive a reference to the context as the first argument.

Plugin modules should provide a load() class method (or inherit the default one from the Template::Plugin base class) which is called the first time the plugin is loaded. Regular Perl modules need not. In all other respects, regular Perl objects and Template Toolkit plugins are identical.

If a particular Perl module does not conform to the common, but not unilateral, new() constructor convention then a simple plugin wrapper can be written to interface to it.

The FILTERS option can be used to specify custom filters which can then be used with the FILTER directive like any other. These are added to the standard filters which are available by default. Filters specified via this option will mask any standard filters of the same name.

The FILTERS option should be specified as a reference to a hash array in which each key represents the name of a filter. The corresponding value should contain a reference to an array containing a subroutine reference and a flag which indicates if the filter is static (0) or dynamic (1). A filter may also be specified as a solitary subroutine reference and is assumed to be static.

Additional filters can be specified at any time by calling the define_filter() method on the current Template::Context object. The method accepts a filter name, a reference to a filter subroutine and an optional flag to indicate if the filter is dynamic.

Static filters are those where a single subroutine reference is used for all invocations of a particular filter. Filters that don't accept any configuration parameters (e.g. html) can be implemented statically. The subroutine reference is simply returned when that particular filter is requested. The subroutine is called to filter the output of a template block which is passed as the only argument. The subroutine should return the modified text.

Filters that can accept parameters (e.g. truncate) should be implemented dynamically. In this case, the subroutine is taken to be a filter 'factory' that is called to create a unique filter subroutine each time one is requested. A reference to the current Template::Context object is passed as the first parameter, followed by any additional parameters specified. The subroutine should return another subroutine reference (usually a closure) which implements the filter.

When a PROCESS, INCLUDE or WRAPPER directive is encountered, the named template may refer to a locally defined BLOCK or a file relative to the INCLUDE_PATH (or an absolute or relative path if the appropriate ABSOLUTE or RELATIVE options are set). If a BLOCK definition can't be found (see the Template::Contexttemplate() method for a discussion of BLOCK locality) then each of the LOAD_TEMPLATES provider objects is queried in turn via the fetch() method to see if it can supply the required template.

Each provider can return a compiled template, an error, or decline to service the request in which case the responsibility is passed to the next provider. If none of the providers can service the request then a 'not found' error is returned. The same basic provider mechanism is also used for the INSERT directive but it bypasses any BLOCK definitions and doesn't attempt is to parse or process the contents of the template file.

If LOAD_TEMPLATES is undefined, a single default provider will be instantiated using the current configuration parameters. For example, the Template::ProviderINCLUDE_PATH option can be specified in the Template configuration and will be correctly passed to the provider's constructor method.

The LOAD_PLUGINS options can be used to specify a list of provider objects (i.e. they implement the fetch() method) which are responsible for loading and instantiating template plugin objects. The Template::Contextplugin() method queries each provider in turn in a "Chain of Responsibility" as per the template() and filter() methods.

By default, a single Template::Plugins object is created using the current configuration hash. Configuration items destined for the Template::Plugins constructor may be added to the Template constructor.

The LOAD_FILTERS option can be used to specify a list of provider objects (i.e. they implement the fetch() method) which are responsible for returning and/or creating filter subroutines. The Template::Contextfilter() method queries each provider in turn in a "Chain of Responsibility" as per the template() and plugin() methods.

The TOLERANT flag is used by the various Template Toolkit provider modules (Template::Provider, Template::Plugins, Template::Filters) to control their behaviour when errors are encountered. By default, any errors are reported as such, with the request for the particular resource (template, plugin, filter) being denied and an exception raised.

When the TOLERANT flag is set to any true values, errors will be silently ignored and the provider will instead return STATUS_DECLINED. This allows a subsequent provider to take responsibility for providing the resource, rather than failing the request outright. If all providers decline to service the request, either through tolerated failure or a genuine disinclination to comply, then a '<resource> not found' exception is raised.

A reference to a Template::Service object, or sub-class thereof, to which the Template module should delegate. If unspecified, a Template::Service object is automatically created using the current configuration hash.

A reference to a Template::Context object which is used to define a specific environment in which template are processed. A Template::Context object is passed as the only parameter to the Perl subroutines that represent "compiled" template documents. Template subroutines make callbacks into the context object to access Template Toolkit functionality, for example, to INCLUDE or PROCESS another template (include() and process() methods, respectively), to USE a plugin (plugin()) or instantiate a filter (filter()) or to access the stash (stash()) which manages variable definitions via the get() and set() methods.

The Template::Parser module implements a parser object for compiling templates into Perl code which can then be executed. A default object of this class is created automatically and then used by the Template::Provider whenever a template is loaded and requires compilation. The PARSER option can be used to provide a reference to an alternate parser object.

The GRAMMAR configuration item can be used to specify an alternate grammar for the parser. This allows a modified or entirely new template language to be constructed and used by the Template Toolkit.

Source templates are compiled to Perl code by the Template::Parser using the Template::Grammar (by default) to define the language structure and semantics. Compiled templates are thus inherently "compatible" with each other and there is nothing to prevent any number of different template languages being compiled and used within the same Template Toolkit processing environment (other than the usual time and memory constraints).

The Template::Grammar file is constructed from a YACC like grammar (using Parse::YAPP) and a skeleton module template. These files are provided, along with a small script to rebuild the grammar, in the parser sub-directory of the distribution.

You don't have to know or worry about these unless you want to hack on the template language or define your own variant. There is a README file in the same directory which provides some small guidance but it is assumed that you know what you're doing if you venture herein. If you grok LALR parsers, then you should find it comfortably familiar.

By default, an instance of the default Template::Grammar will be created and used automatically if a GRAMMAR item isn't specified.